Siy
Harvey Siy, Omaha, NE US
Patent application number | Description | Published |
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20140337982 | Risk Prioritization and Management - Methods for managing and prioritizing risk include receiving a data set and analyzing the data set for duplicates, false positives, false negatives, and tool errors. Said duplicates, false positives, false negatives and results of tool errors are removed from the data set, creating an input file. The input file is compared against compliance standards to identify any weaknesses, defects, bugs, flaws, vulnerabilities, and/or failures in the input file. The compared input file is mapped to Common Weakness Enumeration standards. A risk prioritization can be generated based on the mapped results. At least one report can be generated based on the risk prioritization. | 11-13-2014 |
Jacqueline T. Siy, Salt Lake City, UT US
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20120068126 | POST-SYSTHESIS MODIFICATION OF COLLOIDAL NANOCRYSTALS - Methods for precise and predictable modification of previously synthesized nanocrystals. The methods rely on the solubility behavior of crystalline materials to provide for controlled reversal of the nanocrystal growth process (i.e., dissolution). A method for post-synthesis modification of colloidal nanocrystals includes (1) providing a first nanocrystal having a first size and a first shape, (2) forming a reaction mixture that includes the nanocrystal, at least one ligand capable of binding to at least one component of the nanocrystal, at least one solvent, and an inert gas atmosphere, and (3) modifying the size and/or shape of the nanocrystal in the reaction mixture for a period of time at a temperature in a range from about 100 0C to about 240 0C so as to produce at least a second nanocrystal having a second size and/or a second shape. | 03-22-2012 |
20120090533 | LOW-TEMPERATURE SYNTHESIS OF COLLOIDAL NANOCRYSTALS - Low-temperature organometallic nucleation and crystallization-based synthesis methods for the fabrication of semiconductor and metal colloidal nanocrystals with narrow size distributions and tunable, size- and shape-dependent electronic and optical properties. Methods include (1) forming a reaction mixture in a reaction vessel under an inert atmosphere that includes at least one solvent, a cationic precursor, an anionic precursor, and at least a first surface stabilizing ligand while stirring at a temperature in a range from about 50° C. to about 130° C. and (2) growing nanocrystals in the reaction mixture for a period of time while maintaining the temperature, the stirring, and the inert-gas atmosphere. | 04-19-2012 |
Jenica Carryl O. Siy, Issaquah, WA US
Patent application number | Description | Published |
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20140298245 | Display Instance Management - Display instance management techniques are described. In one or more implementations, an application manager module of a computing device is executed that is configured to manage which display instances of the plurality of applications are made available via a user interface at a particular time. One or more application programming interfaces (APIs) are exposed by the application manager module that are configured to support switching by the application manager module between a plurality of the display instances for a respective single one of the plurality of applications in the user interface. | 10-02-2014 |
Robert Siy, Edmonton CA
Patent application number | Description | Published |
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20090321326 | PRIMARY FROTH RECYCLE - A process for extracting bitumen from oil sand, comprising: mixing oil sand with process water to produce an oil sand slurry containing bitumen, sand, water and entrained air; conditioning the oil sand slurry; optionally flooding the conditioned oil sand slurry with flood water to dilute the slurry, if required; introducing the slurry into a primary separation vessel wherein separate layers of primary bitumen froth, middlings and sand tailings are formed; removing a portion of the primary bitumen froth from the primary separation vessel and recycling the portion of primary bitumen froth to that step of the process upstream of the primary separation vessel to join and mix with the feed stream moving to the primary separation vessel; and thereafter retaining said feed stream in said primary separation vessel to produce primary bitumen froth. | 12-31-2009 |
20110127198 | OIL SAND SLURRY SOLIDS REDUCTION TO ENHANCE EXTRACTION PERFORMANCE FOR PROBLEM ORES - A process for extracting bitumen from problem oil sand ores having low bitumen content and/or high fines content is provided, comprising: mixing the problem oil sand ore with heated water to produce an oil sand slurry; conditioning the oil sand slurry for a period of time sufficient to substantially disperse oil sand lumps and promote the release and coalescence of bitumen flecks from the sand grains; removing a sufficient amount of solids from the conditioned oil sand slurry in a de-sander circuit; and subjecting the solids-reduced oil sand slurry to gravity separation in a bitumen separation vessel to allow the bitumen to float to the top of the vessel to form clean bitumen froth. | 06-02-2011 |
20130256196 | POST-CONDITIONING OIL SAND SLURRY BLENDING FOR IMPROVED EXTRACTION PERFORMANCE - The invention is directed to a process for extracting bitumen from poor oil sand ore involving mixing the poor oil sand ore with heated water to produce a slurry, and conditioning the slurry to yield a poor ore stream. In a separate train, good oil sand ore is mixed with heated water to produce a slurry, and conditioned to yield a good ore stream. Both the conditioned poor ore and good ore streams are combined in specified proportions to yield a blended slurry which is then fed to a primary separation vessel to produce primary bitumen froth. | 10-03-2013 |
20130284641 | BITUMEN SEPARATION PROCESS AND APPARATUS FOR PROBLEM ORES - A process for separating from an oil sand slurry solids and bitumen is provided, comprising introducing the oil sand slurry into a separation zone comprising an upper zone and a lower zone; intercepting a settling path of the solids in the separation zone by bringing the solids into contact with at least one intercepting surface to direct the solids to the lower zone; and producing a reduced solids upper zone to allow the bitumen to rise through the upper zone with reduced hindrance from the solids. | 10-31-2013 |
Teddy Siy, Royal Oak, MI US
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20120109408 | ELECTRICAL VEHICLE RANGE PREDICTION - A method for predicting the remaining travel distance of an electric vehicle. The method includes determining a useable battery energy value based on battery state-of-charge and battery capacity and a power value needed to heat or cool a vehicle cabin. The method determines an available battery energy value based on the useable battery energy value and an estimated energy value to provide the vehicle cabin heating or cooling, where the estimated energy value is determined using the power value. The method determines a recent energy used value based on an actual recent HVAC energy used value, a recent energy used value with no HVAC system loads and a recent energy used value with maximum HVAC system loads. The method determines a recent distance traveled value and determines the range by dividing the recent distance traveled value by the recent energy used value and multiplying by the available battery energy value. | 05-03-2012 |